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Event-Triggered Distributed State Estimation for Multiagent Systems Under DoS Attacks

Yuan‐Cheng Sun, Guang‐Hong Yang

2020IEEE Transactions on Cybernetics75 citationsDOI

Abstract

This article investigates the problem of event-triggered distributed state estimation for linear multiagent systems under denial-of-service (DoS) attacks. In contrast to the previous studies where the agents have access to the measurements of their own states, an estimation algorithm is provided based on the measurements relative to the adjacent agents, and the considered DoS attacks jam each channel independently while the attack durations are constrained. To estimate the states and effectively schedule the information transmissions over the network possibly subject to malicious attacks, a prediction-based switching observer scheme with an event-triggered communication strategy is proposed, and the invalidation problem of the event-triggering mechanism caused by the DoS attacks is solved. Based on the decay rates of the Lyapunov function corresponding to different transmission modes, sufficient conditions for the stability of the estimation error dynamics are presented in the presence of DoS attacks. Finally, the effectiveness of the proposed strategy is demonstrated by simulation results.

Topics & Concepts

Denial-of-service attackComputer scienceScheduleMulti-agent systemObserver (physics)Event (particle physics)Transmission (telecommunications)State (computer science)Lyapunov functionStability (learning theory)Control theory (sociology)Distributed computingAlgorithmArtificial intelligenceThe InternetTelecommunicationsPhysicsControl (management)World Wide WebNonlinear systemQuantum mechanicsMachine learningOperating systemSmart Grid Security and ResilienceDistributed Control Multi-Agent SystemsNetwork Security and Intrusion Detection